报告标题：Create Synergy between CO二 Utilization and Biorefinery for Sustainability 报 告 人：林鸿飞 教师（U.S.A.华盛顿州立大学）报告时间：二零一八年111月三十二五日（星期二）深夜壹5:00告知地方：16号楼21四会议室迎接广大师生前往！化学与化法高校二〇一八年4月二二十三日告诉摘录：In line with the development of global decarbonized economy, chemical industry may advance into a new era of manufacturing carbon-negative fuels and commodity chemicals from the atmospheric CO贰 with renewable energy. Herein, we explore the synergy between CO2 capture utilization and biorefinery for producing carbon-negative formate chemicals using biogenic CO二 released from biorefineries. Such a synergy may not only realize zero carbon emission in a biorefinery but also improve the carbon atom efficiency of biorefining process since the released CO二 in conventional biorefineries can be re-captured and converted into the final chemical products. Moreover, a novel catalytic reaction system is presented by coupling the dehydrogenation of glucose with the hydrogenation of a CO2-derived salt, ammonium carbonate, in an ethanol--water mixture. For the first time, the reduction of CO2 to formate by glucose has been achieved under ambient conditions.报告人简要介绍：Dr. Hongfei Lin is an Associate Professor in the Voiland School of Chemical Engineering and Bioengineering at 华盛顿State University. He received his B.E and M.S. degrees in Chemical Engineering from Tsinghua University, China, and his Ph.D. degree in Chemical Engineering from Louisiana State University, USA.After graduation, he has been a postdoctoral fellow for two years at the University of California, Santa Barbara and then worked in renewable energy industry for three years.Dr. Lins current research focuses on catalysis for sustainability, with the emphasis on developing liquid-phase catalytic processes for production of fuels and chemicals from renewable feedstocks. He has authored 50 scientific papers in the premier scientific journals including Energy and Environmental Science, 格林 Chemistry, ChemSusChem, etc.He has also delivered numerous presentations in conferences and research institutions. He is the international advisory board member of Energy Technology, and the editorial board member of Advanced Composites and Hybrid Materials. He also served as the guest editor for Catalysis Today. He is the current Program Chair of the Energy and Fuels Division of American Chemical Society (ACS).附属类小部件：无
报 告 人：王国雄 教师 澳国昆士兰高校
邀 请 人：李烈军 教授
CE（公司）空气接触器吸收大批量中的二氧化碳，捕集方案是使其产生富含二氧化碳。在苏醒进程中，涉及七个管理步骤，产生CO 2的提炼的物流，并再度使原来捕获化学。这八个过程一齐坐班，以使从大批量中的二氧化碳的三番五次拍照，以能量（和一点点的化妆品）作为输入，并且纯的CO 2作为出口。纯二氧化碳流能够出卖，并在工业应用和/或永远切断（地质积累）深地下使用。
CE's air contactor absorbs atmospheric CO2 into our capture solution to produce a liquid solution that is rich in CO2. The regeneration process, involving several processing steps, produces a purified stream of CO2 and re-makes the original capture chemical. These two processes work together to enable continuous capture of CO2 from atmospheric air, with energy (and small amounts of make-up chemicals) as an input, and pure CO2 as an output. The stream of pure CO2 can be sold and used in industrial applications and/or permanently sequestered (geologically stored) deep underground.
我们捕捉技艺使含有CO2成与自然吸收二氧化碳，在三个称作接触器装置的化学溶液接触大气。此消除方案，今后包罗捕获的CO 二，被发送到贰个复兴循环，当再生该原始化学溶液，在接触珍视新选取同时提取CO 贰。提取的CO 二与从系统的财富应用的持有CO 2合并，并都被交给的高压管道质量的出品。
Our capture technology brings atmospheric air containing CO2 into contact with a chemical solution that naturally absorbs CO2, in a device called a contactor. This solution, now containing the captured CO2, is sent to a regeneration cycle that simultaneously extracts the CO2 while regenerating the original chemical solution, for re-use in the contactor. The extracted CO2 is combined with all the CO2 from the systems energy use and both are delivered as a high-pressure pipeline-quality product.
CE’S AIR CONTACTOR DESIGN CAPTURES CARBON DIOXIDE WITH A STRONGLY ALKALINE HYDROXIDE SOLUTION. THIS SOLUTION HAS BEEN OPTIMIZED TO QUICKLY ABSORB CO2 BY CAREFUL SELECTION OF CONCENTRATIONS AND ADDITIVES.